Abstract
Although Japan has been considered to have little lead (Pb) pollution in modern times, the actual pollution situation is unclear. The present study aims to investigate the extent of Pb pollution and to identify the pollution sources in Japan using stable Pb isotope analysis with kidneys of wild rats. Wild brown (Rattus norvegicus, n = 43) and black (R. rattus, n = 98) rats were trapped from various sites in Japan. Mean Pb concentrations in the kidneys of rats from Okinawa (15.58 mg/kg, dry weight), Aichi (10.83), Niigata (10.62), Fukuoka (8.09), Ibaraki (5.06), Kyoto (4.58), Osaka (4.57), Kanagawa (3.42), and Tokyo (3.40) were above the threshold (2.50) for histological kidney changes. Similarly, compared with the previous report, it was regarded that even structural and functional kidney damage as well as neurotoxicity have spread among rats in Japan. Additionally, the possibility of human exposure to a high level of Pb was assumed. In regard to stable Pb isotope analysis, distinctive values of stable Pb isotope ratios (Pb-IRs) were detected in some kidney samples with Pb levels above 5.0 mg/kg. This result indicated that composite factors are involved in Pb pollution. However, the identification of a concrete pollution source has not been accomplished due to limited differences among previously reported values of Pb isotope composition in circulating Pb products. Namely, the current study established the limit of Pb isotope analysis for source identification. Further detailed research about monitoring Pb pollution in Japan and the demonstration of a novel method to identify Pb sources are needed.
Highlights
IntroductionPb compounds; metal production processes (mining and smelting activities); combustion of fossil fuels (coal, former use of leaded gasoline); and sewage sludge applications [2,3,4]
Among toxic metals, lead (Pb) exhibits a elevated anthropogenic enrichment factor [1].Pb moves into the environment during use, recycling, and disposal ofPb compounds; metal production processes; combustion of fossil fuels; and sewage sludge applications [2,3,4]
No significant difference was observed in the pattern of Pb accumulation between R. norvegicus and R. rattus
Summary
Pb compounds; metal production processes (mining and smelting activities); combustion of fossil fuels (coal, former use of leaded gasoline); and sewage sludge applications [2,3,4]. Leaded gasoline has been strictly regulated all over the world, the use of Pb-based products has increased greatly since the Industrial Revolution. It has been thoroughly studied that Pb poisoning progresses from biochemical and subclinical abnormalities, such as gastrointestinal problems, stunted growth, and cognition problems, to death [9]. These types of Pb poisoning cases have been reported in humans worldwide. More than 160 people, mainly children under the age of five, died in the Pb poisoning disaster in Zamfara, Nigeria [11]
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